CN207798687U - Portable detection analyzer - Google Patents

Abstract

The utility model discloses a portable detection analyzer, which comprises a sample rack and a detection device; the sample rack is provided with a plurality of cuvette slots at intervals along the transverse direction, and each cuvette slot can be inserted and used for accommodating one cuvette; the detection device is used for detecting and analyzing the samples in the cuvettes and comprises a light source assembly and a receiving assembly, wherein the light source assembly and the receiving assembly are respectively arranged at the front side and the rear side of the sample rack and respectively move to the positions opposite to the cuvettes along the transverse direction under the action of a first driving mechanism and a second driving mechanism. The utility model discloses technical scheme makes a plurality of cell slots in-line arrangement through setting up long banding structure with the sample frame, and light source subassembly and receiving component are respectively through actuating mechanism relative mounting in the both sides of sample frame, utilize two actuating mechanism respectively drive light source subassembly and receiving component to remove in proper order and go on the detection and analysis to the position relative with each cell, its simple structure, with low costs, detection speed is fast.

Description

Portable inspectiont analyzer

Technical field

The utility model is related to medical detecting Instrument technical field, more particularly to a kind of portable inspectiont analyzer.

Background technology

The structure of biochemistry detection analytical equipment is typically to use turntable structure, and circle distribution has multiple cuvettes to insert on turntable Slot, detection device setting on one of matched position of cuvette slot, successively to multiple by rotary turnplate Cuvette in slot is detected, and structure is complex, and design accuracy is more demanding, and cost is big, is unfavorable for being generalized to In the centers She Kang or small medical mechanism；

And biochemistry detection analytical equipment generally use scattering immunoturbidimetry principle or projection immunoturbidimetry principle are come Analysis is detected to sample, but the fixed setting of the light source of existing biochemistry detection analyzer and cannot adjust, i.e. light source The path channels that the light sent out is passed through are changeless, to take into account above two detection and analysis mode, are used There are limitations.

In addition, the structure of existing biochemistry detection analyzer is typically to use carousel mode, circle distribution has more on turntable A cuvette slot, sample and corresponding chemical reagent are needed with sample needle after being added to cuvette by sample and chemistry Reagent hand operated mixing uniformly or by the suction repeatedly of sample needle after automatic stir evenly, is being detected, either Hand operated mixing or automatic stirring are required for being stirred one by one, and mixing speed is slow, is examined to great amount of samples Detection speed is seriously affected when survey.

Utility model content

The purpose of this utility model is that solving deficiency in the prior art at least to some extent, provide a kind of portable Detection analysis instrument.

To achieve the above object, portable inspectiont analyzer provided by the utility model, including：

Sample rack, the sample rack is laterally spaced to offer multiple cuvette slots, and each cuvette slot can One cuvette of receiving of grafting, the chemistry examination that the cuvette is used to contain sample to be detected and be reacted with the sample Agent；

Detection device, for being detected analysis to the sample in each cuvette, the detection device includes Light source assembly and receiving unit, the light source assembly and receiving unit are separately positioned on the front and rear sides of the sample rack, and The light source assembly and receiving unit can respectively under the action of the first driving mechanism and the second driving mechanism, laterally move to The position opposite with each cuvette.

Preferably, the light source assembly includes the first pedestal being connect with first driving mechanism and with described first The second pedestal that pedestal is transversely arranged side by side, second pedestal can carry out rotation adjusting relative to the first pedestal around a shaft, And the axis direction of the shaft extends transversely；

Between the front and rear wall of first pedestal at least one first path channels, first light path are offered along level Channel is provided with the first lens close to one end of the sample rack, and one end far from the sample rack is provided with first light source；

At least one second path channels are offered between the front and rear wall of second pedestal, second path channels are leaned on One end of the nearly sample rack is provided with the second lens, and one end far from the sample rack is provided with second light source；Described second The irradiating angle of path channels is adjusted by the rotation angle of second pedestal.

Preferably, it is provided with a locating part between first pedestal and the second pedestal, to limit second pedestal Rotation angle；

Second pedestal is transversely perforative to offer arc slide opening, and the center of circle of the arc slide opening is located at the shaft Axial line on；

The locating part is a stop screw, and first pedestal is towards being provided with along cross on the end face of second pedestal To the threaded hole of extension, the stop screw is connected to across the arc slide opening in the threaded hole, and by described second Pedestal is fixed on first pedestal.

Preferably, the sample rack is logical in offering opposite first on the front and rear sides wall of each cuvette slot respectively Unthreaded hole and the second light hole, first light hole are the strip-shaped hole vertically extended, and the second light hole is circular through hole.

Preferably, first driving mechanism includes the first driving motor being arranged on substrate transverse direction one end, sets Set the substrate transverse direction other end and by the first driving belt and matched first synchronizing wheel of first driving motor, It is arranged on the substrate and the first sliding rail for extending transversely and is slidably arranged on first sliding rail and by described First sliding block of one driving belt driving, is provided with first be fixedly connected with first driving belt on first sliding block Connector, first connector fix first pedestal by the first supports support.

Preferably, the receiving unit includes the third pedestal being connect with second driving mechanism and is arranged in institute State detector of the third pedestal towards the sample rack side.

Preferably, second driving mechanism includes the second driving motor being arranged on substrate transverse direction one end, sets Set the substrate transverse direction other end and by the second driving belt and matched second synchronizing wheel of second driving motor, It is arranged on the substrate and the second sliding rail for extending transversely and is slidably arranged on second sliding rail and by described Second sliding block of two driving belts driving, is provided with second be fixedly connected with second driving belt on second sliding block Connector, second connector fix the third pedestal by the second supports support.

Preferably, further include having substrate, the sample rack and the first driving mechanism and the second driving mechanism are arranged at On the substrate, it is provided between the sample rack and the substrate for promoting the sample in each cuvette and chemistry examination Agent is sufficiently mixed the magnetic stirring apparatus of reaction.

Preferably, the both ends of the sample rack transversely are fixed on the substrate by support plate respectively, the magnetic force Agitating device includes magnetic stripe between being rotatably arranged on two support plates, for driving the magnetic stripe to be rotated around its center line Several magnetic beads or iron shot placed in electric rotating machine and each cuvette；The two-stage magnetism of the magnetic stripe with it is described in Heart line is vertical.

Preferably, the bottom of the sample rack is additionally provided with heating component, and the heating component includes being fitted in the sample The heating film of this bottom surface and the fixed plate that the heating film is fixed on to the sample rack bottom surface.

Technical solutions of the utility model make multiple cuvette slots be in line by the way that sample rack is arranged to long strip type structure Arrangement, and light source assembly and receiving unit are driven respectively by the opposite both sides for being mounted on sample rack of driving mechanism using two Mechanism, which respectively drives light source assembly and receiving unit and is moved to successively on the position opposite with each cuvette, to be tested and analyzed, Simple in structure, at low cost, detection speed is fast.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of the utility model portable inspectiont analyzer；

Fig. 2 is the attachment structure schematic diagram of the utility model light source assembly and the first driving mechanism；

Fig. 3 is the structural schematic diagram of the utility model light source assembly；

Fig. 4 is the decomposition texture schematic diagram of Fig. 3；

Fig. 5 is the cross-sectional view of the first path channels of the utility model；

Fig. 6 is the cross-sectional view of the second path channels of the utility model；

Fig. 7 is the attachment structure schematic diagram of the utility model receiving unit and the second driving mechanism；

Fig. 8 is the structural schematic diagram of the utility model receiving unit；

Fig. 9 is the structural schematic diagram of the utility model sample rack and magnetic stirring apparatus；

Figure 10 is the structural schematic diagram of the utility model heating component.

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation, be based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts The every other embodiment obtained, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be understood that term "center", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise " " axial direction ", " circumferential direction ", " radial direction " is orientation based on ... shown in the drawings Or position relationship, be merely for convenience of describing the present invention and simplifying the description, do not indicate or imply the indicated device or Element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as the limit to the utility model System.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also be electrical connection to be mechanical connection；It can be directly connected, can also indirectly connected through an intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features are in direct contact, and can also not be to be in direct contact but lead to including the first and second features Cross the other characterisation contact between them.Moreover, fisrt feature second feature " on ", " top " and " above " include the One feature is right over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.First is special Sign second feature " under ", " lower section " and " below " include fisrt feature immediately below second feature and obliquely downward, or only Indicate that fisrt feature level height is less than second feature.

The portable inspectiont analyzer of the utility model embodiment is described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 10, the portable inspectiont analyzer of the utility model embodiment, including substrate 100 and set Set sample rack 10, detection device and magnetic stirring apparatus 70 on substrate.

Wherein, the sample rack 10 is laterally spaced offers multiple cuvette slots 11, each cuvette slot 11 one cuvette 60 of plug-in receiving, the cuvette 60 is for containing sample to be detected and being reacted with the sample Chemical reagent；And sample rack 10 in offering the first opposite thang-kng respectively on the front and rear sides wall of each cuvette slot 11 Hole 12 and the second light hole 13.

The detection device to the sample in each cuvette 60 for being detected analysis, the detection device packet Light source assembly 20 and receiving unit 30 are included, the light source assembly 20 and receiving unit 30 are oppositely arranged on the sample rack respectively 10 front and rear sides, and the light source assembly 20 and receiving unit 30 can be respectively in the first driving mechanism 40 and the second driving mechanisms Under the action of 50, laterally move to the position opposite with each cuvette 60.

It should be noted that the detection device of the utility model, magnetic stirring apparatus 70, the first driving mechanism 40 and Two driving mechanisms 50 are electrically connected in control unit (not shown), and the control unit of the present embodiment can be to be disposed on the substrate Control circuit board, or host computer (such as computer or mobile phone equipment).

According to the portable inspectiont analyzer of the utility model embodiment, to the ratio in one of cuvette slot 11 When color cup 60 is detected, sample and chemical reagent are loaded in the cuvette 60, light source assembly 20 and receiving unit 30 divide It is not moved on the position opposite with the cuvette slot 11 under the action of the first driving mechanism 40 and the second driving mechanism 50, The light that light source assembly 20 is emitted sequentially passes through the first light hole 12, cuvette 60 and second with unthreaded hole and by receiving unit 30 are received, to be detected analysis to the sample in the cuvette 60.It is to be appreciated that in practical application, can be All cuvette slots 11 are all placed with cuvette 60, the light source assembly 20 and receiving unit 30 of detection device on sample rack 10 All cuvettes 60 can automatically be examined successively respectively under the drive of the first driving mechanism 40 and the second driving mechanism 50 Survey analysis.

In one embodiment of the utility model, as shown in Figures 2 to 4, the light source assembly 20 includes and described First pedestal 21 of one driving mechanism 40 connection and the second pedestal 22 being transversely arranged side by side with first pedestal 21, institute Rotation adjusting, and the axis direction edge of the shaft 214 can be carried out relative to the first pedestal 21 around a shaft 214 by stating the second pedestal 22 It is laterally extended.

Wherein, it in conjunction with shown in Fig. 5 and Fig. 6, is offered along level between the front and rear wall of first pedestal 21 at least one First path channels 212, first path channels 212 are provided with the first lens 24A close to one end of the sample rack 10, far One end from the sample rack 10 is provided with first light source 25A.At least one is offered between the front and rear wall of second pedestal 22 A second path channels 223, second path channels 223 are provided with the second lens 24B close to one end of the sample rack 10, One end far from the sample rack 10 is provided with second light source 25B；The irradiating angle of second path channels 223 passes through described The rotation angle of second pedestal 22 is adjusted.Accordingly, first light hole 12 is the strip-shaped hole vertically extended, Second light hole 13 is circular through hole.

It should be noted that LED light source, laser diode or halogen can be used in first light source 25A and second light source 25B Lamp, and the receiving unit 30 includes the third pedestal 31 being connect with second driving mechanism 50 and setting described the Three pedestals 31 towards 10 side of the sample rack detector 32, as shown in Figure 8；The detector 32 is spectrometer or silicon photoelectricity Pond can receive the light that first light source 25A or second light source 25B is emitted, and be converted into electric signal according to the light received And it is sent to the content parameter of detection substance required for control unit obtains.

Specifically, the first path channels 212 on first pedestal 21 of the present embodiment have there are four and are mutually parallel, corresponding First light source 25A also there are four, and the wavelength of light that is sent out of each first light source 25A is different；Second on second pedestal 22 The tool of path channels 223 there are two and be mutually parallel, corresponding second light source 25B also there are two, and two second light source 25B are sent out The wavelength of light gone out is different.That is, the portable inspectiont analyzer of the present embodiment can according to scattering immunoturbidimetry or thoroughly Immunoturbidimetry principle is penetrated to determine to be irradiated using first light source 25A or using second light source 25B, and according to inspection It surveys and needs to select the light source of corresponding wavelength；For example, according to scattering immunoturbidimetry principle come when being detected, using the second base First light hole 12 of the second path channels 223 alignment sample rack 10 on seat 22, the light that second light source 25B is emitted After second path channels 223 pass through the first light hole 12 to inject cuvette 60 with a predetermined angle, light is by sample Complex particle refraction deflects and projects from the second light hole 13 and examined by the reception of the detector of receiving unit 30 32 Survey analysis；If when being detected, using first light on the first pedestal 21 according to transmission immunological turbidimetry method principle Paths 212 are directed at the first light hole 12 of sample rack 10, and the light that second light source 25B is emitted is along horizontal through cuvette 60 And analysis is detected by the reception of detector 32.

Further, as shown in Figures 3 and 4, it is provided with a locating part between first pedestal, 21 and second pedestal 22, with The rotation angle of second pedestal 22 is limited, and the rotation angle for limiting the second pedestal 22 is exactly to limit the second path channels 223 angle so that the incident ray of second light source 25B along the second path channels 223 with acclivitous irradiation, and the second light The angle of paths 223 and horizontal plane is adjustable between 10-37 °.

Specifically, second pedestal 22 is transversely perforative offers arc slide opening 222, the arc slide opening 222 The center of circle is located on the axial line of the shaft 214；The locating part is a stop screw 23, and first pedestal 21 is towards described The threaded hole 211 extended transversely is provided on the end face of second pedestal 22, the stop screw 23 passes through the arc slide opening 222 and be connected in the threaded hole 211, and second pedestal 22 is fixed on first pedestal 21.

Shaft 214 is arranged on the first pedestal 21, and transversely prolongs from the first pedestal 21 towards 22 direction of the second pedestal protrusion It stretches, and the distance between the axle center of shaft 214 and the axle center of threaded hole 211 are equal to the radius of arc slide opening 222；Second pedestal 22 In transversely offering one on the center of circle of arc slide opening 222 for being arranged the axis hole 221 of shaft 214；When installation, the second pedestal 22 So that axis hole 221 is sleeved in shaft 214, and the screw rod of stop screw 23 is threaded in spiral shell across arc slide opening 222 On pit 211 so that the head of stop screw 23 by 22 pressing of the second pedestal on the first pedestal 21, to by the second pedestal 22 It is fixed with the first pedestal 21；When needing to adjust the angle of the second path channels 223 of the second pedestal 22, limit spiral shell is slightly unclamped Nail 23, make the second pedestal 22 around the shaft 214 axis rotation to required angle, then stop screw 23 is tightened and fixes second Pedestal 22.

Each first light source 25A and second light source 25B is respectively installed by a light source mounting base 26 and a connecting tube 27 In 212 and second path channels 223 of corresponding first path channels, one end of light source mounting base 26 offers light source mounting hole 261, the other end offers the intercommunicating pore 262 being connect with light source mounting hole 261, and one end plugged and fixed of the connecting tube 27 is even In through-hole 262 and in light source mounting hole 261 first light source 25A or second light source 25B it is opposite, connecting tube 27 it is another It holds plugged and fixed on first path channels, 212 or second one end of path channels 223 far from sample rack 10, and each connects The optical fiber 271 at its both ends is provided through on the central axis of take over 27；In this way, the first light source in light source mounting base 26 can be made The light that 25A or second light source 25B are sent out enters after optical fiber 271 in corresponding path channels, and the focusing through lens It acts on and is radiated on cuvette 60.

First pedestal 21 is corresponded in the one end for being plugged with connecting tube 27 and is offered and the first light in each first path channels 212 First locking screw holes 213 of 212 vertical connection of paths, the second pedestal 22 correspond to each second in the one end for being plugged with connecting tube 27 Offer the second locking screw holes 224 with 223 vertical connection of the second path channels in path channels 223, and light source mounting base 26 The third locking screw holes 263 with 262 vertical connection of intercommunicating pore are offered in the one end for being plugged with connecting tube 27；The one of connecting tube 27 After intercommunicating pore 262 is inserted at end, it is connected in third locking screw holes 263 using lock-screw and compresses connecting tube 27 and make connecting tube 27 It is fixed with light source mounting base 26；After the other end of connecting tube 27 is inserted into the first path channels 212 or the second path channels 223, profit It is connected in 213 or second locking screw holes 224 of corresponding first locking screw holes with lock-screw and compresses connecting tube 27 and make connection Pipe 27 and the first pedestal 21 or the second pedestal 22 are fixed.

It is provided with light source mounting plate 264 on one end of 26 corresponding light source mounting hole 261 of each light source mounting base, to by One light source 25A or second light source 25B is fixed in the light source mounting hole 261 of corresponding light source mounting base 26.

Each first path channels, 212 and second path channels 223 offer lens close to one end of sample rack 10 Mounting hole, the first pedestal 21 and the second pedestal 22 correspond to and are provided with lens mounting plate 28 on one end of each lens mounting hole, to First lens 24A and the second lens 24B are fixed on to the lens of each correspondence the first path channels 212 and the second path channels 223 In mounting hole, and the through hole 281 opposite with lens mounting hole is offered on each lens mounting plate 28.

In some embodiments of the utility model, as shown in Fig. 2, first driving mechanism 40 includes being arranged described The first driving motor 41, setting on the lateral one end of substrate 100 in the lateral other end of the substrate 100 and pass through the first transmission skin Band 43 on the substrate 100 and is extended transversely with first driving motor, 41 matched first synchronizing wheel 44, setting The first sliding rail 45 and be slidably arranged on first sliding rail 45 and first slided by first driving belt 43 drives Block 46, is provided with the first connector 47 being fixedly connected with first driving belt 43 on first sliding block 46, and described A connection piece 47 fixes first pedestal 21 by the support of the first support element 48.Specifically, the output of the first driving motor 41 The first driving wheel 42 is arranged on axis, the ring set of the first driving belt 43 tensioning is in the first driving wheel 42 and the first synchronizing wheel 44 On, the rotation of the first driving belt 43 can be driven when the first driving motor 41 rotates as a result, by the first driving wheel 42, and then drive The first sliding block 46 being fixed on the first driving belt 43 is moved along the first sliding rail 45, to make the first sliding block 46 by first Support member 48 drives the first pedestal 21 of light source assembly 20 transversely to move.

Further, as shown in fig. 7, second driving mechanism 50 includes being arranged on the lateral one end of the substrate 100 The second driving motor 51, setting in the lateral other end of the substrate 100 and passes through the second driving belt 53 and driven with described second Dynamic 51 matched second synchronizing wheel 54 of motor, the second sliding rail 55 for being arranged on the substrate 100 and extending transversely and The second sliding block 56 for being slidably arranged on second sliding rail 55 and being driven by second driving belt 53, second sliding block The second connector 57 being fixedly connected with second driving belt 53 is provided on 56, second connector 57 passes through second The third pedestal 31 is fixed in the support of support element 58.Specifically, second is arranged on the output shaft of the second driving motor 51 actively Wheel 52, the ring set of the second driving belt 53 tensioning is on the second driving wheel 52 and the second synchronizing wheel 54, the second driving motor as a result, The rotation of the second driving belt 53 can be driven when 51 rotation by the second driving wheel 52, and then drives and is fixed on the second driving belt 53 On the second sliding block 56 moved along the second sliding rail 55, to make the second sliding block 56 pass through the second support element 58 drive receiving unit 30 Third pedestal 31 transversely move.

In some embodiments of the utility model, as shown in figure 9, the magnetic stirring apparatus 70 is arranged in the sample Between frame 10 and the substrate 100, for promoting sample in each cuvette 60 and chemical reagent fully mixed using magnetic force Close reaction.Specifically, the both ends of the sample rack 10 transversely are fixed on by support plate 71 on the substrate 100 respectively, institute State magnetic stirring apparatus 70 include be rotatably arranged on magnetic stripe 72 between two support plates 71, for drive the magnetic stripe 72 around Several magnetic beads or iron shot placed in the electric rotating machine 74 of its center line rotation and each cuvette 60；The magnetic stripe 72 two-stage magnetism and the central axis.

That is, magnetic stripe 72 is the string configuration being laterally extended, both ends are rotatably supported in by rotation axis respectively In two support plates 71, and one of rotation axis is pierced by after support plate 71 through the output shaft of shaft coupling 73 and electric rotating machine 74 company It connects, the center line of the magnetic stripe 72 is the axis of rotation axis, and the poles N of magnetic stripe 72 are located at one side, and the poles S of magnetic stripe 72 are located at Its other side；In this way, when electric rotating machine 74 drives magnetic stripe 72 to be rotated around center line, due to sample rack 10 upward of magnetic stripe 72 The magnetic pole in direction constantly changes between the poles N and the poles S, to drive magnetic bead or the iron shot rolling in each cuvette 60, reaches The sample in each cuvette 60 is thoroughly mixed the purpose reacted with chemical reagent simultaneously, stirring is fast and safely.

In some embodiments of the utility model, as shown in Figure 10, the bottom of the sample rack 10 is additionally provided with heating Component 80, the heating component 80 include being fitted in the heating film 81 of 10 bottom surface of the sample rack and by the heating film 81 It is fixed on the fixed plate 82 of 10 bottom surface of the sample rack.Specifically, heating film 81 is also to extend transversely, each cuvette slot 11 It is respectively positioned on the top of heating film 81, in detection and analysis, is heated by heating film 81, so that the ratio in cuvette slot 11 Liquid to be detected is heated and maintained at the temperature of setting in color cup 60, with ensure liquid to be detected within the scope of suitable temperature into Row detection and analysis, ensure accuracy of detection.

The above is only the preferred embodiment of the present invention, and it does not limit the scope of the patent of the present invention, Under every utility model in the utility model is conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (10)

1. a kind of portable inspectiont analyzer, which is characterized in that including：

Sample rack, the sample rack is laterally spaced to offer multiple cuvette slots, and each cuvette slot is pluggable One cuvette of receiving, the cuvette is used for the chemical reagent that contains sample to be detected and reacted with the sample；

Detection device, for being detected analysis to the sample in each cuvette, the detection device includes light source Component and receiving unit, the light source assembly and receiving unit are separately positioned on the front and rear sides of the sample rack, and described Light source assembly and receiving unit can respectively under the action of the first driving mechanism and the second driving mechanism, laterally move to it is each The opposite position of the cuvette.

2. portable inspectiont analyzer as described in claim 1, which is characterized in that the light source assembly includes and described first First pedestal of driving mechanism connection and the second pedestal being transversely arranged side by side with first pedestal, second pedestal Rotation adjusting can be carried out around a shaft relative to the first pedestal, and the axis direction of the shaft extends transversely；

Between the front and rear wall of first pedestal at least one first path channels, first path channels are offered along level One end of the sample rack is provided with the first lens, one end far from the sample rack is provided with first light source；

At least one second path channels are offered between the front and rear wall of second pedestal, second path channels are close to institute The one end for stating sample rack is provided with the second lens, and one end far from the sample rack is provided with second light source；Second light path The irradiating angle in channel is adjusted by the rotation angle of second pedestal.

3. portable inspectiont analyzer as claimed in claim 2, which is characterized in that between first pedestal and the second pedestal It is provided with a locating part, to limit the rotation angle of second pedestal；

Second pedestal is transversely perforative to offer arc slide opening, and the center of circle of the arc slide opening is located at the axis of the shaft On heart line；

The locating part is a stop screw, and first pedestal transversely prolongs towards being provided on the end face of second pedestal The threaded hole stretched, the stop screw are connected to across the arc slide opening in the threaded hole, and by second pedestal It is fixed on first pedestal.

4. portable inspectiont analyzer as claimed in claim 2, which is characterized in that the sample rack is in each cuvette slot Front and rear sides wall on offer opposite the first light hole and the second light hole respectively, first light hole is along vertical side To the strip-shaped hole of extension, the second light hole is circular through hole.

5. portable inspectiont analyzer as claimed in claim 2, which is characterized in that first driving mechanism includes that setting exists The first driving motor on substrate transverse direction one end, setting the substrate transverse direction other end and by the first driving belt with Matched first synchronizing wheel of first driving motor, setting on the substrate and extend transversely the first sliding rail, with And the first sliding block for being slidably arranged on first sliding rail and being driven by first driving belt, it sets on first sliding block It is equipped with the first connector being fixedly connected with first driving belt, first connector is solid by the first supports support Fixed first pedestal.

6. portable inspectiont analyzer as described in claim 1, which is characterized in that the receiving unit includes and described second The third pedestal of driving mechanism connection and detector in the third pedestal towards the sample rack side is set.

7. portable inspectiont analyzer as claimed in claim 6, which is characterized in that second driving mechanism includes that setting exists The second driving motor on substrate transverse direction one end, setting the substrate transverse direction other end and by the second driving belt with Matched second synchronizing wheel of second driving motor, setting on the substrate and extend transversely the second sliding rail, with And the second sliding block for being slidably arranged on second sliding rail and being driven by second driving belt, it sets on second sliding block It is equipped with the second connector being fixedly connected with second driving belt, second connector is solid by the second supports support The fixed third pedestal.

8. portable inspectiont analyzer as described in claim 1, which is characterized in that further include having substrate, the sample rack with And first driving mechanism and the second driving mechanism be respectively provided on the substrate, be provided between the sample rack and the substrate For promoting sample in each cuvette and chemical reagent to be sufficiently mixed the magnetic stirring apparatus of reaction.

9. portable inspectiont analyzer as claimed in claim 8, which is characterized in that the both ends difference of the sample rack transversely It is fixed on the substrate by support plate, the magnetic stirring apparatus includes the magnetic being rotatably arranged between two support plates Several magnetic placed in item, the electric rotating machine for driving the magnetic stripe to be rotated around its center line and each cuvette Pearl or iron shot；The two-stage magnetism of the magnetic stripe and the central axis.

10. portable inspectiont analyzer as claimed in claim 4, which is characterized in that the bottom of the sample rack is additionally provided with Heating component, the heating component include being fitted in the heating film of the sample rack bottom surface and being fixed on the heating film The fixed plate of the sample rack bottom surface.